Abstract
Pollution affects aquatic systems worldwide and there is an urgent need for efficient monitoring. Fish are generally sensitive to their environment and are thus considered to be valuable bioindicator species. The African Sharptooth catfish (Clarias gariepinus) is particularly important in this respect because of its very wide distribution. In order to use C. gariepinus as a bioindicator species its baseline clinical chemistry must be defined. Existing data are scarce, and the objective of this work was therefore to establish clinical chemistry parameters for C. gariepinus. Blood was collected from male and female catfish and a number of clinical chemistry parameters were determined. Plasma protein values, but particularly those of plasma albumin, were found to be very low, approximately half the value for dogs, but similar to the values in Channel catfish (Ictalurus punctatus). Plasma urea values in Sharptooth catfish were found to be much lower than in dogs, but only marginally lower than in Channel catfish. Plasma creatinine in Sharptooth catfish, however, was only a quarter of that of dogs and one third of that found in Channel catfish. These findings may have implications for using urea and/or creatinine as an index of renal glomerular filtration, as is done in mammals. Plasma enzyme activity ranges were much lower in Sharptooth catfish than in dogs, particularly for alkaline phosphatase (ALP) and alanine aminotransferase (ALT). By comparison, Channel catfish have an even lower ALT activity range but an ALP range that is very similar to dogs. The implications for using these enzymes as markers for liver disease are not clear from these data, as factors such as plasma half-life and tissue distribution remain to be determined. The very low plasma thyroxine (T4) levels have important implications for laboratory personnel, who will have to set up calibration and standardisation adaptations for the methods that are generally designed for human samples. Although the sample size was too small for reliable comparisons, it appeared that there was little difference in the parameters measured between male and female fish. The values obtained are a useful starting point for using C. gariepinus as a bioindicator species.
Highlights
Aquatic ecosystems are subject to pollution that may have dire effects[3,18]
The objective of this paper is, to define baseline clinical chemistry parameters of C. gariepinus that could be used as indicators of organ function or damage, to assess the impact of pollution in aquatic ecosystems
Laboratory results The clinical chemistry results of the Sharptooth catfish are summarised in Table 1 and compared, in Table 2, with data from the Channel catfish (Ictalurus punctatus) and the domestic
Summary
Aquatic ecosystems are subject to pollution that may have dire effects[3,18]. Deleterious effects of pollution are often preceded by subtle molecular and cellular changes that can be detected in some inhabitants of these ecosystems[5,12,19]. Fish are suitable bioindicator animals because they respond with great sensitivity to changes in the aquatic environment[3,14,18,19]. The Sharptooth catfish (Clarias gariepinus) aDepartment of Paraclinical Sciences, Faculty of Veterinary Science, University of Pretoria, Private Bag X04, Onderstepoort, 0110 South Africa. BDepartment of Anatomy and Physiology, Faculty of Veterinary Science, University of Pretoria, Private Bag X04, Onderstepoort, 0110 South Africa. CDigital Veterinary Diagnostics, PO Box 41468, Garsfontein East, 0060 South Africa.
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